Enhancing Long-Haul 15-Mode Fiber Performance: Mode Permutation for Reduced Modal Dispersion

Giammarco Di Sciullo; Divya A. Shaji; Menno van den Hout; Georg Rademacher; Ruben S. Luis; Benjamin J. Puttnam; Nicolas K. Fontaine; Roland Ryf; Haoshuo Chen; Mikael Mazur; David T. Neilson; Pierre Sillard; Frank Achten; Jun Sakaguchi; Chigo Okonkwo; Antonio Mecozzi; Cristian Antonelli; Hideaki Furukawa

doi:10.1109/JLT.2024.3453553

Enhancing Long-Haul 15-Mode Fiber Performance: Mode Permutation for Reduced Modal Dispersion

Giammarco Di Sciullo (Corresponding author)
, Divya A. Shaji
, Menno van den Hout
, Georg Rademacher
, Ruben S. Luis
, Benjamin J. Puttnam
, Nicolas K. Fontaine
, Roland Ryf
, Haoshuo Chen
, Mikael Mazur
, David T. Neilson
, Pierre Sillard
, Frank Achten
, Jun Sakaguchi
, Chigo Okonkwo
, Antonio Mecozzi
, Cristian Antonelli
, Hideaki Furukawa

Onderzoeksoutput: Bijdrage aan tijdschrift › Tijdschriftartikel › Academic › peer review

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We explore the efficacy of mode permutation to mitigate the impact of modal dispersion in a 15-mode fiber link for long-haul space-division multiplexed transmission. By introducing strong coupling between all the fiber modes, mode permutation reduces the growth rate of the link's intensity impulse response (IIR) with transmission distance, yielding a reduction in the receiver MIMO-DSP complexity. Using a recirculating fiber-loop configuration, we experimentally compare four permutation schemes and find that they are similarly effective in reducing the increase of the IIR duration from proportional to the square-root of propagation distance. At the reach of 530 km - the largest achievable with the time-domain MIMO window of 71.4 ns available in the experiment in the absence of mode permutation - the IIR duration is seen to reduce from almost 40 ns to less than 15 ns, while the maximum reach achieved with the use of mode permutation increases to 1178 km. We also devise a simple model to simulate propagation in realistic MMF links with independent fiber spans, whose parameters can be conveniently extracted from the data. In achieving good agreement between the simulated and experimental results, the model suggests that the effectiveness of mode permutation in a realistic 15-mode fiber link, composed of independent fiber spans, is only slightly greater than in the experimental recirculating-loop configuration.

Originele taal-2	Engels
Artikelnummer	10663941
Pagina's (van-tot)	481-491
Aantal pagina's	11
Tijdschrift	Journal of Lightwave Technology
Volume	43
Nummer van het tijdschrift	2
Vroegere onlinedatum	3 sep. 2024
DOI's	https://doi.org/10.1109/JLT.2024.3453553
Status	Gepubliceerd - jan. 2025

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This work was supported in part by Italian Government through INCIPICT and FIRST Projects and in part by KPN-TU/e Smart Two Program and European Union's Horizon Europe Research and Innovation Programme under the Marie Sklodowska- Curie Grant Agreement Number 101072409. Manuscript received xx.xx.xxxx; revised xx.xx.xxxx; accepted xx.xx.xxxx. This work was partly supported by the Italian Government through INCIPICT and FIRST projects and from the KPN-TU/e Smart Two program and European Union\u2019s Horizon Europe Research and Innovation Programme under the Marie Sklodowska-Curie Grant Agreement No. 101072409. (Corresponding author: Giammarco Di Sciullo) Giammarco Di Sciullo, Menno van den Hout, Ruben S. Lu\u00EDs, Benjamin J. Puttnam, Jun Sakaguchi, and Hideaki Furukawa are with the Photonic Network System Laboratory, National Institute of Information and Communications Technology, Tokyo 184-8795, Japan (e-mail: [email protected]; {rluis; ben; jsakaguchi; fu-rukawa}@nict.go.jp).

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Di Sciullo, G., Shaji, D. A., van den Hout, M., Rademacher, G., Luis, R. S., Puttnam, B. J., Fontaine, N. K., Ryf, R., Chen, H., Mazur, M., Neilson, D. T., Sillard, P., Achten, F., Sakaguchi, J., Okonkwo, C., Mecozzi, A., Antonelli, C., & Furukawa, H. (2025). Enhancing Long-Haul 15-Mode Fiber Performance: Mode Permutation for Reduced Modal Dispersion. Journal of Lightwave Technology, 43(2), 481-491. Artikel 10663941. https://doi.org/10.1109/JLT.2024.3453553

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title = "Enhancing Long-Haul 15-Mode Fiber Performance: Mode Permutation for Reduced Modal Dispersion",

abstract = "We explore the efficacy of mode permutation to mitigate the impact of modal dispersion in a 15-mode fiber link for long-haul space-division multiplexed transmission. By introducing strong coupling between all the fiber modes, mode permutation reduces the growth rate of the link's intensity impulse response (IIR) with transmission distance, yielding a reduction in the receiver MIMO-DSP complexity. Using a recirculating fiber-loop configuration, we experimentally compare four permutation schemes and find that they are similarly effective in reducing the increase of the IIR duration from proportional to the square-root of propagation distance. At the reach of 530 km - the largest achievable with the time-domain MIMO window of 71.4 ns available in the experiment in the absence of mode permutation - the IIR duration is seen to reduce from almost 40 ns to less than 15 ns, while the maximum reach achieved with the use of mode permutation increases to 1178 km. We also devise a simple model to simulate propagation in realistic MMF links with independent fiber spans, whose parameters can be conveniently extracted from the data. In achieving good agreement between the simulated and experimental results, the model suggests that the effectiveness of mode permutation in a realistic 15-mode fiber link, composed of independent fiber spans, is only slightly greater than in the experimental recirculating-loop configuration.",

keywords = "modal dispersion, mode permutation, multi-mode fiber transmission, Space-division multiplexing, Modal dispersion, space-division multiplexing",

author = "\{Di Sciullo\}, Giammarco and Shaji, \{Divya A.\} and \{van den Hout\}, Menno and Georg Rademacher and Luis, \{Ruben S.\} and Puttnam, \{Benjamin J.\} and Fontaine, \{Nicolas K.\} and Roland Ryf and Haoshuo Chen and Mikael Mazur and Neilson, \{David T.\} and Pierre Sillard and Frank Achten and Jun Sakaguchi and Chigo Okonkwo and Antonio Mecozzi and Cristian Antonelli and Hideaki Furukawa",

year = "2025",

month = jan,

doi = "10.1109/JLT.2024.3453553",

language = "English",

volume = "43",

pages = "481--491",

journal = "Journal of Lightwave Technology",

issn = "0733-8724",

publisher = "Institute of Electrical and Electronics Engineers",

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Di Sciullo, G, Shaji, DA, van den Hout, M, Rademacher, G, Luis, RS, Puttnam, BJ, Fontaine, NK, Ryf, R, Chen, H, Mazur, M, Neilson, DT, Sillard, P, Achten, F, Sakaguchi, J, Okonkwo, C, Mecozzi, A, Antonelli, C & Furukawa, H 2025, 'Enhancing Long-Haul 15-Mode Fiber Performance: Mode Permutation for Reduced Modal Dispersion', Journal of Lightwave Technology, vol. 43, nr. 2, 10663941, blz. 481-491. https://doi.org/10.1109/JLT.2024.3453553

TY - JOUR

T1 - Enhancing Long-Haul 15-Mode Fiber Performance

T2 - Mode Permutation for Reduced Modal Dispersion

AU - Di Sciullo, Giammarco

AU - Shaji, Divya A.

AU - van den Hout, Menno

AU - Rademacher, Georg

AU - Luis, Ruben S.

AU - Puttnam, Benjamin J.

AU - Fontaine, Nicolas K.

AU - Ryf, Roland

AU - Chen, Haoshuo

AU - Mazur, Mikael

AU - Neilson, David T.

AU - Sillard, Pierre

AU - Achten, Frank

AU - Sakaguchi, Jun

AU - Okonkwo, Chigo

AU - Mecozzi, Antonio

AU - Antonelli, Cristian

AU - Furukawa, Hideaki

PY - 2025/1

Y1 - 2025/1

N2 - We explore the efficacy of mode permutation to mitigate the impact of modal dispersion in a 15-mode fiber link for long-haul space-division multiplexed transmission. By introducing strong coupling between all the fiber modes, mode permutation reduces the growth rate of the link's intensity impulse response (IIR) with transmission distance, yielding a reduction in the receiver MIMO-DSP complexity. Using a recirculating fiber-loop configuration, we experimentally compare four permutation schemes and find that they are similarly effective in reducing the increase of the IIR duration from proportional to the square-root of propagation distance. At the reach of 530 km - the largest achievable with the time-domain MIMO window of 71.4 ns available in the experiment in the absence of mode permutation - the IIR duration is seen to reduce from almost 40 ns to less than 15 ns, while the maximum reach achieved with the use of mode permutation increases to 1178 km. We also devise a simple model to simulate propagation in realistic MMF links with independent fiber spans, whose parameters can be conveniently extracted from the data. In achieving good agreement between the simulated and experimental results, the model suggests that the effectiveness of mode permutation in a realistic 15-mode fiber link, composed of independent fiber spans, is only slightly greater than in the experimental recirculating-loop configuration.

AB - We explore the efficacy of mode permutation to mitigate the impact of modal dispersion in a 15-mode fiber link for long-haul space-division multiplexed transmission. By introducing strong coupling between all the fiber modes, mode permutation reduces the growth rate of the link's intensity impulse response (IIR) with transmission distance, yielding a reduction in the receiver MIMO-DSP complexity. Using a recirculating fiber-loop configuration, we experimentally compare four permutation schemes and find that they are similarly effective in reducing the increase of the IIR duration from proportional to the square-root of propagation distance. At the reach of 530 km - the largest achievable with the time-domain MIMO window of 71.4 ns available in the experiment in the absence of mode permutation - the IIR duration is seen to reduce from almost 40 ns to less than 15 ns, while the maximum reach achieved with the use of mode permutation increases to 1178 km. We also devise a simple model to simulate propagation in realistic MMF links with independent fiber spans, whose parameters can be conveniently extracted from the data. In achieving good agreement between the simulated and experimental results, the model suggests that the effectiveness of mode permutation in a realistic 15-mode fiber link, composed of independent fiber spans, is only slightly greater than in the experimental recirculating-loop configuration.

KW - modal dispersion

KW - mode permutation

KW - multi-mode fiber transmission

KW - Space-division multiplexing

KW - Modal dispersion

KW - space-division multiplexing

UR - https://www.scopus.com/pages/publications/85203635094

U2 - 10.1109/JLT.2024.3453553

DO - 10.1109/JLT.2024.3453553

M3 - Article

AN - SCOPUS:85203635094

SN - 0733-8724

VL - 43

SP - 481

EP - 491

JO - Journal of Lightwave Technology

JF - Journal of Lightwave Technology

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M1 - 10663941

ER -

Enhancing Long-Haul 15-Mode Fiber Performance: Mode Permutation for Reduced Modal Dispersion

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